P2_9 Leap Year? Get out of Here! Part 1

Authors

  • Daniel Mott University of Leicester
  • Conan Murgatroyd University of Leicester
  • Charlie Kinsman University of Leicester
  • James Stinton University of Leicester

Abstract

In this paper we investigate the feasibility of altering the Earth’s orbit, in order to remove the leap year. Since the Earth orbits the Sun with a period of 365.25 days, the orbital period must be reduced by 0.25 days. Under the assumption that the Earth’s orbit is circular at all times, we find that 1.22E30 J of energy must be removed from the orbit, and if this energy is to be removed over the course of one orbit, the acceleration of the Earth must be 2.17E−7 m/s^2 . Removing this energy will reduce the radius of the Earth’s orbit by 0.046%

Downloads

Published

12-12-2021

How to Cite

Mott, D., Murgatroyd, C., Kinsman, C., & Stinton, J. (2021). P2_9 Leap Year? Get out of Here! Part 1. Physics Special Topics, 20(1). Retrieved from https://journals.le.ac.uk/index.php/pst/article/view/3999

Issue

Vol. 20 No. 1 (2021): Physics Special Topics

Section

Articles